Sayan, S.
, Croft, M.
, Nguyen, N.
, Emge, T.
, Gusev, E.
, Kim, H.
, Ehrstein, J.
, McIntyre, P.
and Garfunkel, E.
(2005),
Amorphous to Tetragonal Transition in Ultrathin Zirconia Films: Effect on the Electronic and Dielectric Properties, Applied Physics Letters
(Accessed April 25, 2024)
Official websites use .gov
A .gov website belongs to an official government organization in the United States.
Secure .gov websites use HTTPS
A lock (
) or https:// means you’ve safely connected to the .gov website. Share sensitive information only on official, secure websites.
Amorphous to Tetragonal Transition in Ultrathin Zirconia Films: Effect on the Electronic and Dielectric Properties
Published
Author(s)
Safak Sayan, Mark Croft, , Tom Emge, Evgeni Gusev, Hyunjung G. Kim, , Paul McIntyre, Eric Garfunkel
Abstract
As medium-high permittivity dielectrics approach use in MOSFET production, an atomic level understanding of their permittivity and the capacitance of structures made from them are being rigorously examined. In this note, the issue of crystal structure in ultrathin films of ZrO2 is addressed and how phase can affect permittivity as well as band gap and alignment. Crystal structure has a considerable effect on dielectric properties, band gap, and band alignment. The phase of the dielectric can change depending on its physical thickness and annealing conditionsCitation
Applied Physics Letters
Volume
15
Pub Type
Journals
Keywords
Dielectrics, zirconia, crystal structure, x-ray absorption spoectroscopy, spectroscopic ellipsometry
Citation
Created August 31, 2005, Updated October 12, 2021